Vehicle systems and methods

ABSTRACT

A vehicle includes at least one display and a central controller in signal communication with the at least one display. The central controller is configured to detect a plurality of unique user profiles associated with peripheral electronic user devices located within the vehicle, and to establish signal communication with the peripheral electronic user devices located within the vehicle.

CROSS-REFERENCE TO RELATED APPLICATION

This application claims the benefit of U.S. Provisional Application No.62/439,597, filed Dec. 28, 2016, the contents of which are incorporatedherein by reference thereto.

FIELD

The present application relates generally to passenger vehicles and,more particularly, to lighting systems, modular docking systems, displayand user interface systems, and device connectivity systems forpassenger vehicles.

BACKGROUND

Current passenger vehicles typically include basic and generic lightingsystems without any customizability, as well as basic user interfacesthat provide limited interaction between a driver/passenger and thevehicle. Moreover, it may be difficult to operably connect a personalelectronic device to current passenger vehicles, and even then,interaction between the vehicle and the personal electronic device istypically limited to hands-free calling/texting or audio playback.Further, current passenger vehicles do not offer user interfaces thatprovide seamless connectivity and interaction among multiple personaland in-vehicle electronic devices within that vehicle. Accordingly,while such systems work well for their intended purpose, it is desirableto provide a passenger vehicle with improvements to such systems.

SUMMARY

According to one example aspect of the invention, a vehicle is provided.The vehicle includes at least one display and a central controller insignal communication with the at least one display. The centralcontroller is configured to detect a plurality of unique user profilesassociated with peripheral electronic user devices located within thevehicle, and to establish signal communication with the peripheralelectronic user devices located within the vehicle.

In addition to the foregoing, the described vehicle may include one ormore of the following features: wherein the central controller isconfigured to load each unique user profile and provide a visual displayof each user profile on the at least one display; wherein the centralcontroller includes a community platform that connects the peripheralelectronic user devices for interaction (i) between the peripheralelectronic user devices and (ii) between the peripheral electronic userdevices and the at least one display; wherein said interaction includessharing music; wherein said interaction includes sharing video; whereinsaid interaction includes sharing media; wherein said interactionincludes sharing destinations; and wherein said interaction includessharing points of interest.

In addition to the foregoing, the described vehicle may include one ormore of the following features: wherein the community platform isconfigured to display on the peripheral electronic user devices mediathat can be shared on the community platform and provide a share softbutton on the peripheral electronic user devices to share the media withone or more other peripheral electronic user devices; wherein thecommunity platform is further configured to provide a selection menusoft button on the peripheral electronic user devices after a userselects the share soft button, the selection menu providing a list of(i) the at least one display and (ii) one or more other peripheralelectronic user devices that the media can be shared with; wherein thecentral controller is configured to define a community profile based onthe detected unique user profiles; and wherein the central controller isconfigured to provide contextual suggestions for the community profilebased on determined common interests and/or preferences of the uniqueuser profiles.

In addition to the foregoing, the described vehicle may include one ormore of the following features: wherein the central controller isconfigured to display a different image identifying each detected uniqueuser profile; wherein the different image includes a unique color foreach unique user profile; wherein the central controller is configuredto visually identify input corresponding to each unique user profilesuch that the at least one display visually displays input correspondingto each unique user profile in a different manner; wherein the centralcontroller is configured to visually identify the input corresponding toeach unique user profile using a different color; and wherein thecontextual suggestions include music, destinations, and food choices.

In addition to the foregoing, the described vehicle may include one ormore of the following features: wherein the vehicle further comprises atleast one customizable lighting system in signal communication with thecentral controller, wherein the central controller is configured toadjust one or more lighting characteristics of the at least onecustomizable lighting system; wherein the central controller isconfigured to adjust the one or more lighting characteristics based on apreference associated with one of the unique user profiles; wherein theone or more lighting characteristics includes light color; wherein theat least one customizable lighting system is an exterior vehiclelighting; wherein the exterior vehicle lighting includes lightinglocated on a front of the vehicle; wherein the exterior vehicle lightingincludes lighting located on a rear of the vehicle; wherein the exteriorvehicle lighting includes ring lighting disposed about doors of thevehicle; wherein the exterior vehicle lighting includes a projectorconfigured to project a light onto areas surrounding the vehicle; andwherein the projected light comprises a greeting message, an exitmessage, or a warning message.

In addition to the foregoing, the described vehicle may include one ormore of the following features: wherein the at least one customizablelighting system is an interior vehicle lighting; wherein the interiorvehicle lighting includes a dome light coupled to a roof of the vehicle;wherein the interior vehicle lighting includes a seat lighting systemwith a seat light disposed on one or more seats of the vehicle, eachseat light configured to selectively provide a color aura around theassociated seat; wherein the interior vehicle lighting includes aheadliner lighting system circumscribing at least a portion of an outerperimeter of a headliner of the vehicle; wherein the interior vehiclelighting includes a floor lighting system circumscribing at least aportion of an outer perimeter of a floor of the vehicle; wherein theinterior vehicle lighting includes a foot well lighting systemconfigured to provide lighting customized to one of the unique userprofiles associated with a seat adjacent the foot well area; and whereinthe central controller is configured to control the foot well lightingsystem to provide lighting differently customized for multiple uniqueuser profiles corresponding to users in multiple different seats.

According to another example aspect of the invention, a vehicle isprovided. The vehicle includes at least one display, a centralcontroller, and a customizable lighting system. The central controlleris in signal communication with the at least one display and configuredto detect a plurality of unique user profiles associated with peripheralelectronic user devices located within the vehicle. The centralcontroller is configured to establish signal communication with theperipheral electronic user devices located within the vehicle, load eachunique user profile, and provide a visual display of each user profileon the at least one display. The central controller includes a communityplatform that connects the peripheral electronic user devices forinteraction (i) between the peripheral electronic user devices and (ii)between the electronic user devices and the at least one display. Theinteraction includes sharing at least one of media, destinations, andpoints of interest.

The community platform is configured to display on the peripheralelectronic user devices at least one of the media, destinations, andpoints of interest that can be shared on the community platform, providea share soft button on the peripheral electronic user devices to shareat least one of the media, destinations, and points of interest with oneor more other peripheral electronic user devices, and provide aselection menu soft button on the peripheral electronic user devicesafter a user selects the share soft button. The selection menu providesa list of (i) the at least one display and (ii) one or more otherperipheral electronic user devices that the at least one of media,destinations, and points of interest can be shared with.

The central controller is configured to define a community profile basedon the detected unique user profiles, and provide contextual suggestionsfor the community profile based on determined common interests and/orpreferences of the unique user profiles.

The customizable lighting system is in signal communication with thecentral controller, which is configured to adjust one or more lightingcharacteristics of the at least one customizable lighting system basedon a preference associated with one of the unique user profiles.

The customizable lighting system includes lighting located on the frontof the vehicle, a rear of the vehicle, ring lighting disposed aboutdoors of the vehicle, a projector configured to project a light ontoareas surrounding the vehicle, a dome light coupled to the roof of thevehicle, a seat lighting system with a seat light disposed on one ormore seats of the vehicle, a headliner lighting system circumscribing atleast a portion of an outer perimeter of a headliner of the vehicle, anda floor lighting system circumscribing at least a portion of an outerperimeter of a floor of the vehicle.

The central controller is configured to control the customizablelighting system to provide lighting differently customized for multipleunique user profiles corresponding to users in multiple different seats.

Further areas of applicability of the teachings of the presentdisclosure will become apparent from the detailed description, claimsand the drawings provided hereinafter, wherein like reference numeralsrefer to like features throughout the several views of the drawings. Itshould be understood that the detailed description, including disclosedembodiments and drawings references therein, are merely exemplary innature intended for purposes of illustration only and are not intendedto limit the scope of the present disclosure, its application or uses.Thus, variations that do not depart from the gist of the presentdisclosure are intended to be within the scope of the presentdisclosure.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of an example vehicle in accordance withthe principles of the present disclosure;

FIG. 2 is a perspective cutaway view of another example vehicle inaccordance with the principles of the present disclosure;

FIG. 3 is a view of an example interior of the vehicles shown in FIGS. 1and 2, in accordance with the principles of the present disclosure;

FIG. 4 is a schematic illustration of an example upgradable modularsystem for a vehicle, in accordance with the principles of the presentdisclosure;

FIG. 5 is a schematic illustration of example docking stations of theupgradable modular system shown in FIG. 4, in accordance with theprinciples of the present disclosure;

FIG. 6 is a perspective view of another example docking station of theupgradable modular system shown in FIGS. 4 and 5, in accordance with theprinciples of the present disclosure;

FIG. 7 is a perspective view of an example docking station of theupgradable modular system shown in FIGS. 4 and 5, in accordance with theprinciples of the present disclosure;

FIG. 8 is a perspective view of example upgradable modular components ofthe upgradable modular system show in FIGS. 4 and 5, in accordance withthe principles of the present disclosure;

FIG. 9 is a front view of another example upgradable modular componentof the upgradable modular system show in FIGS. 4 and 5, in accordancewith the principles of the present disclosure;

FIG. 10 is a perspective view of another example upgradable modularcomponent of the upgradable modular system show in FIGS. 4 and 5, inaccordance with the principles of the present disclosure;

FIG. 11 is a perspective view of another example upgradable modularcomponent of the upgradable modular system show in FIGS. 4 and 5, inaccordance with the principles of the present disclosure;

FIG. 12 is a perspective view of another example upgradable modularcomponent of the upgradable modular system show in FIGS. 4 and 5, inaccordance with the principles of the present disclosure;

FIG. 13 is a perspective view of another example upgradable modularcomponent of the upgradable modular system show in FIGS. 4 and 5, inaccordance with the principles of the present disclosure;

FIG. 14 is a perspective view of an example charge rail system for avehicle, in accordance with the principles of the present disclosure;

FIG. 15A is a side view of an example charging assembly of the chargerail system shown in FIG. 14, in accordance with the principles of thepresent disclosure;

FIG. 15B is a top view of the charging assembly shown in FIG. 15A, inaccordance with the principles of the present disclosure;

FIG. 15C is a perspective view of the charging assembly shown in FIG.15A, in accordance with the principles of the present disclosure;

FIG. 15D is a side view of another example charging assembly, inaccordance with the principles of the present disclosure;

FIG. 16A is a perspective view of another example charging assembly in adeployed first position, in accordance with the principles of thepresent disclosure;

FIG. 16B is a perspective view of the example charging assembly shown inFIG. 16A in an intermediate second position, in accordance with theprinciples of the present disclosure;

FIG. 16C is a perspective view of the example charging assembly shown inFIG. 16A in a stowed third position, in accordance with the principlesof the present disclosure;

FIG. 17 is a schematic flow diagram illustrating an example controlmethod for a community platform of a vehicle, in accordance with theprinciples of the present disclosure;

FIG. 18 is a schematic flow diagram illustrating another example controlmethod for the community platform, in accordance with the principles ofthe present disclosure;

FIG. 19 is a schematic diagram illustrating another example controlmethod for the community platform, in accordance with the principles ofthe present disclosure;

FIG. 20 is a schematic flow diagram illustrating another example controlmethod for the community platform, in accordance with the principles ofthe present disclosure;

FIG. 21 is a schematic flow diagram illustrating another example controlmethod for the community platform, in accordance with the principles ofthe present disclosure;

FIG. 22 is a schematic flow diagram illustrating another example controlmethod for the community platform, in accordance with the principles ofthe present disclosure; and

FIG. 23 is a perspective view of an example lighting system for thevehicles shown in FIGS. 1 and 2, in accordance with the principles ofthe present disclosure.

DETAILED DESCRIPTION

With initial reference to FIGS. 1-3, an example vehicle 10 according tovarious aspects of the present disclosure is illustrated. Vehicle 10generally includes a front end 14, a rear end 16, and sides 18 eachhaving a door assembly 20. In the example embodiment, door assembly 20includes a forward door 22 and a rearward door 24 configured torespectively slidably open towards the vehicle front end 14 and rear end16.

As shown in FIGS. 2 and 3, vehicle 10 includes an interior cabin 26having a plurality of seats 28, a center stack or instrument panel 30, ahigh mount display (HMD) 32, and a community screen or display 34. Asillustrated, instrument panel 30 includes a center stack or instrumentpanel screen or display 36. HMD 32 extends upwardly from the instrumentpanel 30 toward the vehicle windshield and is configured to displayvarious information such as vehicle speed, vehicle direction, andnavigation information. In the illustrated example, community display 34is coupled to and extends downwardly from a vehicle headliner 38. Thecommunity display 34 is located in the vehicle interior 26 at agenerally central cross-car location and toward the front 14 of thevehicle such many or all of the vehicle passengers (including thedriver) are able to view the community display 34.

With reference to FIGS. 4-13, vehicle 10 is configured to include andsupport upgradable modular systems 50 that enable vehicle owners toseamlessly upgrade specific vehicle components or add additionalfeatures to the vehicle 10.

The upgradable modular system 50 comprises a plurality of dockingstations 52 each configured to receive one or more upgradable modularcomponents 54. In the example implementation, the modular components 54are configured to connect to and interface with a central computer orcontroller 56 via the docking stations 52 located throughout the vehicle10. The modular docking stations 52 are electrically and/or operablycoupled to the vehicle (e.g., vehicle control systems, vehicle powersource) and are configured to quickly and easily receive the upgradablemodular components 54.

As shown in FIG. 4, a list of upgradable modular components 54 includescentral controller 56, displays/touch screens 60, smart climate controls62, smart lighting 64, smart buttons 66, slide controls 68,cameras/sensors 70, smart buttons with displays 72, a customizablerotate button 74, and a device holder or support 76. However, modularcomponents 54 are not limited to the described list and it will beappreciated that additional upgradable components 78 can be provided foroperably coupling with docking stations 52. Moreover, in the illustratedexample, central controller 56 is configured to connect with peripheral(e.g., external) user devices 80 such as smart phones 82, tablets 84, orother personal user devices 86, as described herein in more detail.

In the illustrated example, the upgradable modular components 54 are inelectrical and signal communication with the central controller 56through the docking stations 52. In this way, central controller 56provides both a power source and a data connection to the docked modularcomponents 54.

With continued reference to FIG. 4, central controller 56 iselectrically coupled to vehicle control systems 88 (e.g., engine controlunit) and a vehicle power source 90. Central controller 56 is configuredto operably connect to various devices throughout the vehicle, such asthe docked (e.g., operably coupled) modular components 54 as well as theperipheral user devices 80. Moreover, in the example embodiment, centralcontroller 56 is a universal entrapment device configured toautomatically entrap or connect to various devices (e.g., smart phone82) located within the vehicle interior 26 or within a predefined rangeof the controller 56 or vehicle 10. As such, controller 56 is configuredor programmed to operably connect to various devices and perform varioustasks and functions based on interactions between the various devices,as described herein in more detail.

In the example implementation, controller 56 is configured to interactwith one or more modular components 54 and peripheral user devices 80via an associated program or application. The program/application may bedownloaded, for example, from an online application store andsubsequently stored on a device memory (not shown). Theprogram/application is configured to provide a user interface thatenables the user to interact with controller 56 and various modularcomponents 54 and peripheral user devices 80. As used herein, the termcontroller refers to an application specific integrated circuit (ASIC),an electronic circuit, a processor (shared, dedicated, or group) andmemory that executes one or more software or firmware programs, acombinational logic circuit, and/or other suitable components thatprovide the described functionality.

Docking stations 52 are located throughout the vehicle 10 in convenientand accessible locations. For example, with particular reference to FIG.5, docking stations 52 are configured to be located in/on: the vehicledashboard 42 in front of the driver seat 28 a (52 a), the top of vehicledashboard 42 (52 b), the instrument panel 30 (52 c), the vehicledashboard 42 in front of the passenger seat 28 b (52 d), a forwardlocation proximate the vehicle headliner 38 (52 e), an intermediatelocation proximate vehicle headliner 38 (52 f), a rearward locationproximate vehicle headliner 38 (52 g), in the rear of one or morevehicle seats 28 (52 h), and in the interior surface of vehicle doors22, 24 and/or armrests 40 (52 i). However, it will be appreciated thatdocking stations 52 may be included in other locations throughout thevehicle such as in vehicle headliner 38 above passengers or under thevehicle hood (not shown).

With further reference to FIGS. 6 and 7, docking stations 52 will bedescribed in more detail. With particular reference to FIG. 6, eachdocking station 52 generally includes a recessed surface 102 surroundedby in interior wall 104 to define a receiving area or docking port 106.While docking station 52 is illustrated as generally rectangular, itwill be appreciated that docking station 52 can have various shapes.Recessed surface 102 includes one or more connectors or ports 108 andone or more magnets 110. Port 108 is in electrical and/or signalcommunication with central controller 56 to thereby provide power and/ordata to the attached modular component 54. In the example embodiment,port 108 is a USB port, however, other types of ports/connectors arecontemplated. Magnets 110 are located on either side of port 108 and areconfigured to magnetically couple to the docked modular component 54 orother object.

In one example shown in FIG. 7, modular component 54 includes aninsertion portion 120 configured to be received within docking port 106.Insertion portion 120 is generally complimentary in shape to receivingarea 106 and includes one or more connectors or plugs 122 and one ormore magnets 124. Plug 122 (e.g., a USB plug) is configured to bematingly received within port 108 to establish electrical and/or signalcommunication with central controller 56. Magnets 124 are located oneither side of plug 122 and are configured to magnetically couple todocking station magnets 110. While docking station 52 is describedutilizing a magnetic coupling, it will be appreciated that othercoupling arrangements are envisioned. Additionally, when not in use,docking station 52 is configured to include a removable cover 126 tocover docking port 106, for example, to protect USB port 108 fromdamage.

As shown in FIGS. 2-4, upgradable modular components 54 includesupgradable displays/touch screens 60 such as HMD 32, community display34, and instrument panel display 36. The upgradable nature of thedisplays/touch screens 60 enables a user to upgrade the size, style,model, etc. of the displays/touch screens 60 to enable a unique,user-defined arrangement.

In the illustrated embodiment, HMD 32 is docked (e.g., operably coupled)with docking station 52 b, and community display 34 is docked withdocking station 52 f. As shown in FIG. 2, docking station 52 b islocated on an upper surface 44 of dashboard 42 such that HMD 32 isdisposed along upper surface 44 in a position to be viewed by at leastthe driver.

As shown in FIG. 6, docking station 52 f is disposed on a support arm140 that includes a proximal end 142 and a distal end 144. The supportarm proximal end 142 is coupled to vehicle headliner 38, and support armdistal end 144 includes the docking station 52 f thereon. Such anarrangement enables community display 34 to be positioned for viewingone or more vehicle occupants.

In other configurations, shown in FIG. 8, the upgradable displays/touchscreens 60 include a display or screen 150 and a projector 152. In oneexample, the screen 150 is docked with docking station 52 f, and theprojector 152 is docked with the docking station 52 g. In thisarrangement, projector 152 is configured to project picture/video ontoscreen 150 and thereby function in a manner similar to community display34.

As shown in FIG. 9, upgradable modular components 54 includes smartclimate controls 62. In the example embodiment, the smart climatecontrols 62 are configured to replace common manual climate controlbuttons/dials (not shown). In one example, smart climate controls 62 areconfigured to dock in docking station 52 c located on or near instrumentpanel display 36. As such, the smart climate controls 62 are operablyconnected to the central controller 56 and/or other vehicle controlsystems (e.g., an HVAC system) to provide manual climate control. In theillustrated example, smart climate controls 62 include a display orscreen 154 configured to display soft buttons 156 that resemble manualcontrols such as HVAC controls, seat heating/ventilation, and userstatus (e.g., in the car, away from the car, etc.). However, since softbuttons 156 are digitally displayed, their look and/or function can becustomized using an associated smart climate control program orapplication.

Moreover, in addition to manual climate control as in typical vehicles,the smart climate controls 62 and associated app/program are configuredto learn a user's manual control behavior and preferences andautomatically perform such controls. For example, if the smart climatecontrols 62 notice that a user prefers a cooler vehicle after leaving aparticular location (e.g., a gym), controls 62 can automatically adjustthe vehicle climate to the preferred temperature. In other examples,smart climate controls 62 adjust operation/temperature based on the timeof day, number of people in the vehicle, location of the vehicle,outdoor temperature, and/or various other conditions. Further, theprogram/application is configured to enable a user to control vehicleclimate remotely, for example, from smart phone 82.

As shown in FIGS. 10 and 11, the upgradable modular components 54include cameras/sensors 70 such as, for example, a video camera 160(FIG. 10) and a combination biometric face scanner and eye-tracker 162(FIG. 11). The video camera 160 is configured to dock with dockingstations 52 to provide views of a particular location in the vehicle 10.In one example shown in FIG. 2, video camera 160 includes a rearviewmirror 164 and is configured to dock with docking station 52 e locatedon the distal end of a forward support arm 166. As such, video camera160 is configured to provide pictures/video of all occupants in the car(e.g., enables ability to take group photos).

In another example, video camera 160 is docked with docking station 52 hto provide video of a particular occupant or area in the rear seats 28.Once connected, the central controller 56 is configured to selectivelydisplay pictures/video on one of the in-vehicle displays 60. As such,the driver and/or designated user can monitor areas within the vehicle.For example, the driver can monitor a child sitting in third row seatsfrom the driver seat, or the driver can monitor the vehicle interiorremotely (e.g., from a smart phone) such as to check if a purse was leftin the vehicle 10.

FIG. 12 illustrates combination biometric face scanner and eye-tracker162 configured to dock with docking stations 52. In one example,biometric face scanner and eye-tracker 162 is docked with dockingstation 52 a on the dashboard 42 generally in front of the driver. Theface scanning function is configured to scan an occupant's face andprovide resulting information to central controller 56. In this way,central controller 56 utilize the biometric face scanner 162 to identifya user. Controller 56 is configured to subsequently perform variousfunctions based on permissions set for that user such as, for example,turn lights on/off, automatically start the vehicle, load a userprofile, automatically adjust the climate.

The eye-tracking function is configured to monitor the driver's eyes toestimate driver reaction time and similarly provide the resultinginformation to central controller 56. In this way, central controller 56is configured to estimate a driver's reaction time, which may beutilized when the vehicle 10 requests the driver to take over controlwhile vehicle 10 is operating in a self-driving mode. For example, basedon readings from sensor/camera 162, central controller 56 provides moreadvanced warning to a sleeping driver than a driver who is awake andlooking in front of the vehicle.

As shown in FIG. 12, upgradable modular components 54 include smartlighting 64 having a customizable light 168 configured to be controlledto produce a desired color and brightness. In the illustrated example,customizable light 168 is an overhead dome light docked with dockingstation 52 f. A user can use an in-vehicle device (e.g., display 60) orperipheral device 80 to control the smart lighting 64. Moreover, centralcontroller 56 is configured to learn and/or be programmed toautomatically adjust color/brightness depending on various vehicleconditions (e.g., a certain color for certain music genres, visualfeedback of a direction of a voice in the vehicle, an emergency vehicleis approaching, etc.).

With continued reference to FIG. 4, upgradable modular components 54include smart buttons 66, slide controls 68, smart buttons with displays72, and customizable rotate buttons 74, each of which can be coupled todocking stations 52 in various locations throughout the vehicle. Each ofthe buttons/slides 66, 68, 72, 74 may include any suitable number ofbuttons/slides. Moreover, the buttons/slides 66, 68, 72, 74 areconfigured to be programmed through an associated application/program tothereby provide control for one or more specific vehicle function suchas, but not limited to, garage door control, home climate controls, homedoor lock controls, in-vehicle passenger to passenger communications(e.g., intercom), light controls, voice controls, climate controls, seatheating/ventilation, location information, navigation features, etc.Additionally, in some implementations, buttons/slides 66, 68, 72, 74 areconfigured to change assignment/function depending on a user's proximitythereto. For example, buttons 72 may provide a first set offunctions/controls when a first user profile is detected in proximity(e.g., passenger #1), and subsequently provide a different, second setof functions/controls when a second user profile is detected inproximity (e.g., passenger #2).

In the example embodiment, smart buttons 66 and slide controls 68comprise physical buttons/dials that can be programmed to perform aparticular function using the associated application or program. Incontrast, smart buttons with displays 72 comprise a display or screen170 configured to display one or more soft buttons 172. Since softbuttons 172 are digitally displayed on screen 170, their look and/orfunction can be customized using the associated program or application.FIG. 13 illustrates smart buttons with displays 72 docked in dockingstations 52 i located on the vehicle doors 22, 24.

In the example embodiment, customizable rotate button 74 is a physical,rotatable button configured to dock with docking stations 52. In oneexample, the rotate button 74 is configured to dock with docking station52 c on or near the instrument panel display 36. The rotate button 74 isconfigured to rotate and can be programmed through the associatedapp/program to control one or more specific vehicle functions such as,but not limited to, navigation zoom, contact list browsing, HVAC fanspeed, navigation destinations, seat heating/ventilation, and vehiclelighting. Accordingly, the driver/passenger can customize the rotatebutton 74 to control specific desired vehicle functions.

With continued reference to FIGS. 4 and 7, upgradable modular components54 include device support 76 configured to hold and position one or moreperipheral device 80 such as mobile phone 82 or tablet 84. In theexample embodiment, device support 76 includes a base or backing 180disposed between opposed device retainer end panels 182, which areslidingly coupled to backing 180 via guide plates 184. As such, deviceretainer end panels 182 are telescopically movable toward and away frombacking 180 in order to adjust for various sized peripheral devices 80.Additionally, at least one of the end panels 182 includes a deviceconnector port 186 (e.g., USB port) to enable signal/electrical couplingto the peripheral device 80. A rear surface 188 of the backing 180includes the insertion portion 120 that is configured to be receivedwithin docking port 106. Plug 122 (e.g., a USB plug) is configured to bematingly received within port 108 to establish electrical and/or signalcommunication between central controller 56 and the device connectorport 186.

As previously mentioned, each modular component 54 can include one ormore applications or programs associated with that particular modularcomponent. In some implementations, the app/program is specific to thatmodular component 54. In other implementations, a plurality of modularcomponents 54 operate and/or are controlled by a commonapplication/program such as a community application described herein inmore detail. Such applications/programs may be downloaded, for example,from an online application store and subsequently stored on a devicememory (not shown) of the device. As previously described, suchprograms/applications are configured to provide a user interface thatenables the user to interact with controller 56 and various modularcomponents 54 and peripheral user devices 80.

In one example method of operation, when docked (e.g., for the firsttime), central controller 56 detects the newly installed modularcomponent 54 and uploads any associated software to subsequently provideuser functionality and control through the application/program. A usermay then download the app/program to a user device or vehicleinfotainment center. The application/program then provides control ofthe new modular component through one or more other modular components54 (e.g., screens 60) or peripheral device 80 (e.g., smart phone 82).

As such, vehicle 10 provides a plurality of docking stations 52throughout the vehicle for providing power and data connection tovarious upgradable modular components 54 and peripheral devices 80. Themodular components 54 and peripheral devices 80 are able to connect witheach other via (as well with) the central controller 56 to providevarious function and control. In this way, a user can seamlessly upgradeor modify the vehicle to provide a customized driving experience.

With reference to FIGS. 14 and 15, vehicle 10 further includes a chargerail system 200 configured to configured to hold and charge a personalelectronic device such as a phone device 202. The charge rail system 200is operably associated with vehicle instrument panel 30, which, as shownin FIG. 14, includes a vent 204 having an outlet vane 206 extendingoutwardly therefrom generally toward the vehicle rear 16. The chargerail system 200 generally includes the outlet vane 206 and a chargingassembly 208.

With further reference to FIGS. 15A-15D, charging assembly 208 generallyincludes attachment member 210, a pivot assembly 212, and an inductivecharging interface 214. Attachment member 210 is generally V-shaped andincludes a first arm 216 and a second arm 218 each configured toslidably couple to outlet vane 206 at one end. However, attachmentmember 210 may include any number of arms that enables charge railsystem 200 to function as described herein. For example, attachmentmember 210 may have one or three arms.

In one illustrated example, attachment member 210 is slidably coupled tooutlet vane 206 by a plurality of ball bearings 220. In anotherillustrated example, attachment member 210 is slidably coupled to outletvane 206 by a tongue and groove arrangement 222. However, attachmentmember 210 may be slidably attached to outlet vane 206 by any suitablemeans such as, for example, one or more ribs (not shown). In this way,charging assembly 208 can be manually adjusted along a length of theinstrument panel 30 (e.g., in a general cross-car direction). Moreover,instrument panel 30 may receive multiple charging assemblies 208 suchthat multiple devices 202 can be supported/charged simultaneously.

The other end of attachment member 210 is coupled to pivot assembly 212,which is configured to enable angular adjustment of charging interface214 and thus any attached device 202. Accordingly, the attached device202 can be adjusted by a vehicle passenger via the pivot assembly 212 toa desired position or viewing angle. In the example embodiment, pivotassembly 212 is a ball and socket arrangement 224. However, pivotassembly 212 may be any suitable assembly that enables angularadjustment of charging assembly 208.

In the example embodiment, inductive charging interface 214 isconfigured to provide a surface to receive electronic device 202 forinductive charging thereof. In one example, an inductive charginginterface 214 includes a housing 226 configured to house a primaryinduction coil (not shown) that is connected to a power source such asvehicle power source 90. The inductive charging interface 214 mayinclude one or more capacitors (not shown) coupled in series and/or inparallel. The electronic device 202 includes a secondary inductive coil(not shown) selected to match or complement the inductance value of theprimary inductive coil. The electronic device 202 may be removablycoupled to the inductive charging interface 214 to electrically couplethe electronic device 202 to the power source and thereby charge theinternal battery of the electronic device 202. In one example, inductivecharging interface 214 includes a magnet assembly 228 configured tomagnetically couple to a magnet disposed on the electronic device 202.However, charging assembly 208 may have any suitable means for removablyattaching device 202 to the inductive charging interface 214.

FIGS. 16A-16C illustrate another example charging assembly 258configured for use with charge rail system 200. Charging assembly 258 issimilar to charging assembly 208 and generally includes attachmentmember 260, a pivot assembly 262, and an inductive charging interface264. In the example embodiment, pivot assembly 262 is a hinge andenables inductive charging interface 264 to swing or pivot between anupright position (FIG. 16A) and a flat position (FIG. 16B). The uprightposition enables inductive charging interface 264 to receive device 202or a device support (e.g., similar to device support 76), and the flatposition enables charging assembly 258 to be moved toward and into theinstrument panel 30 into a stowed position (see FIG. 16C).

With reference to FIGS. 17-23, vehicle 10 further includes a communityplatform 300 that seamlessly interconnects internal devices in thevehicle 10 with external devices brought into the vehicle (e.g.,peripheral devices 80). For example, the internal devices include, butare not limited to, central controller 56, HMD 32, community display 34,instrument panel display 36, and vehicle cameras/sensors 70. Theexternal devices include, but are not limited to, personal electronicssuch as phones 82, tablets 84, laptops (not shown), smart lighting 64,cameras 70, wearables (not shown), home devices (not shown), and otherdevices 86. As such, the peripheral devices 80 of each passenger areautomatically connected to community platform 300 to facilitatecommunication and sharing therebetween throughout the entire vehicle 10.For example, one camera 70 can be docked in docking station 52 andintegrated to operate as a baby monitor displayed on HMD 32, passengersmay share media, point of interest (POI), photos, and the like on eachother's devices or on the community display 34, and passengers cancommunicate with each other with enhanced audio zones for each passengerarea and live video.

In the example embodiment, community platform 300 is interconnected by acommunity program or application. The community program/application maybe downloaded, for example, from an online application store andsubsequently stored on a device memory (not shown). Theprogram/application is configured to provide a user interface thatenables the user to interact with community platform 300, controller 56,and various modular components 54 and peripheral user devices 80.

With reference to FIG. 17, one example device connection sequence 310 isillustrated. At step 312, vehicle 10 detects a peripheral device 80 viaa detection method such as, for example, facial recognition, voicerecognition, Bluetooth, RF, Wi-Fi, etc. If the community application isnot already present on the peripheral device 80, at step 314, vehicle 10(e.g., central controller 56) prompts the device user to download orotherwise install the community application on the peripheral device 80.

At step 316, the community application prompts the device user to take apicture of his/her face for a unique user profile. Once complete, atstep 318, the community application prompts the user to choose a colorthat will be associated with that particular user profile. Oncecomplete, at step 320, a basic unique user profile is created and storedin the vehicle (e.g., central controller 56) and/or in a locationaccessible to vehicle 10 (e.g., cloud storage). The basic user profileis subsequently built up through user input and data analysis frommachine learning of central controller 56.

The basic user profile subsequently enables increased interactionbetween a user and the vehicle 10. For example, an exterior camera 46 ofthe vehicle 10 (e.g., see FIG. 1) is configured to detect a userapproaching the vehicle 10 based on biometric face-scanning and theuser's face picture associated with the user's profile. Upon matchingthe user's face with the user's profile, vehicle 10 may then performsubsequent operations. For example, upon recognition of the user,vehicle 10 can open doors 22, 24, activate vehicle lights to glow aparticular color (e.g., the color associated with the user's profile),and/or provide a display or information to the user (e.g., provide awelcome message). Additional lights (e.g., interior lights) are alsoconfigured to glow a particular color (e.g., the color associated withthe user's profile), as described herein in more detail.

In other examples where the community application is used to summonvehicle 10 as for-hire transportation (e.g., taxi service, ride sharing,etc.), vehicle lights are configured to glow a chosen or predeterminedcolor (e.g., the color associated with the user's profile). In this way,the user is able to quickly visually identify the vehicle 10 hiredthrough the community application or other associatedapplication/program.

In the example implementation, the community application collects userpreferences (data) such as frequently visited destinations, musicpreferences, food preferences, favorite points of interest, etc. Whenmultiple user profiles are detected in the vehicle 10, a machinelearning engine such as central controller 56 is configured to establisha community profile and subsequently provide contextual suggestionsbased on common interests. For example, when a particular group orfamily is detected in vehicle 10, central controller 56 is configured toprovide suggestions for music, destinations, restaurants, etc. based oncommon interests or preferences of the individual user profiles.

With reference to FIG. 18, another example device connection sequence330 is illustrated. At step 332, vehicle 10 detects a plurality ofpersonal devices via a detection method such as, for example, facialrecognition, voice recognition, Bluetooth, RF, Wi-Fi, etc. At step 334,each individual profile is loaded and displayed on a vehicle displaysuch as community display 34. For example, community display 34 maydisplay a graphic representation of seats within the vehicle and whichpersons are in those seats by locating a profile avatar 302 at that seatlocation (e.g., see FIG. 19). Animations may be utilized with theprofile avatars 302 to represent the status or activity of the personassociated with the profile avatar 302 (e.g., do not disturb, listeningto music, ordering food, etc.). At step 336, community display 34displays the user profiles, and peripheral devices 80 with the communityapplication load to a home screen and become interactive.

Once the profiles are loaded and connected to each other via thecommunity platform 300, media or communications may be shared throughoutthe vehicle. For example, vehicle passengers are able to share media,POIs, destination, and photos with each other via peripheral devices 80,community display 34, instrument panel display 36, and/or otherpassenger screens/displays 60.

FIG. 20 illustrates one example implementation 350 of community sharingon the vehicle community platform 300 via the community application. Itwill be appreciated that the illustrated layout and design are merelyexemplary and the community platform 300 and community application canhave any suitable arrangement that enables community platform 300 andcommunity application to function as described herein. At step 352, apersonal device 370 displays a list of media (e.g., songs) 372 with anassociated “play” soft button 374 and “share” soft button 376. If the“play” soft button 374 is selected, at step 354, the personal device 370will play the song on that device 370.

If the “share” soft button 376 is selected, at step 356, a selectionmenu soft button 378 is displayed to enable the user to determine whereor to whom the selected media will be shared. For example, in theillustrated implementation, the selection menu soft button 378 displaysfour options for sharing the selected media. A first sharing option 380shares the media to the community display 34 where it can subsequentlybe accessed/played by the controller of the community display 34 (e.g.,the driver) or other authorized users. Accordingly, if the first sharingoption 380 is selected, at step 358, the selected media is displayed onthe community display for further access/use.

A second sharing option 382 shares the media to the driver's screen(e.g., a personal device or center stack display 36), a third sharingoption 384 shares the media to a screen of a Passenger #1, and a fourthsharing option 386 shares the media to a screen of a Passenger #2. Atstep 360, selecting any of sharing options 382, 384, 386 will thendisplay a media share notification 388 on the selected person's screen390. At step 362, the media share notification 388 provides the targetedmedia recipient the option of a “Play” soft button 392 and a “Dismiss”soft button 394. Selecting the “Play” soft button 392 will play/accessthe shared media on the selected screen 390, and selecting the “Dismiss”soft button 394 will close or remove the media share notification 388 onscreen 390.

FIG. 21 illustrates another example implementation 400 of communitysharing on the vehicle community platform 300 via the communityapplication. It will be appreciated that the illustrated layout anddesign are merely exemplary and the community platform 300 and communityapplication can have any suitable arrangement that enables communityplatform 300 and community application to function as described herein.At step 402, personal device 420 displays a POI or a destination. Forexample, a user may desire to stop at a particular establishment for acoffee, or a user may desire to exit a ride share at a desired location.

At step 404, the user selects the POI/destination and a “share” softbutton 422 is displayed. At step 406, selecting the “share” soft button422 displays a selection menu soft button 424 to enable the user todetermine where or to whom the selected POI/destination will be shared.For example, in the illustrated implementation, the selection menu softbutton 424 displays four options for sharing the selected media. A firstsharing option 426 shares the POI/destination to the community display34 where it can be viewed and subsequently utilized by the authorizeduse of the community display 34 (e.g., the driver) or other authorizedusers. Accordingly, if the first sharing option 426 is selected, at step408, the selected POI/destination is displayed on the community display34 for access/use. Further, the community display 34 may then add thePOI/destination as a marker 428 on a travel route 430, and subsequentlydisplay a notification 432 that the particular user has added a newPOI/destination to the travel route 430.

A second sharing option 434 shares the POI/destination to the driver'sscreen (e.g., a personal device or center stack display 36), a thirdsharing option 436 shares the POI/destination to a screen of Passenger#1, and a fourth sharing option 438 shares the POI/destination to ascreen of Passenger #2. At step 410, selecting any of sharing options434, 436, and 438 will then display a POI/destination share notification440 on the selected person's screen 442.

At step 412, the POI/destination share notification 440 provides thetargeted recipient the option of a “Save” soft button 444 and a“Dismiss” soft button 446. Further, if the recipient is the driver, thePOI/destination share notification 440 further provides a “NAV Now” softbutton 448. Selecting the “Save” soft button 444 saves thePOI/destination to the particular device or community application onthat particular device. Selecting the “Dismiss” soft button 446 willclose or remove the POI/destination notification 440 on the screen 442.Selecting the “NAV Now” soft button 448 will navigate the travel routeto the shared POI/destination.

In other examples, the community application enables a passenger (e.g.,3rd row passenger) to use community platform 300 to talk with anotherpassenger in the vehicle (e.g., the driver), for example using personalaudio zones and a live video feed between the passengers and theirpersonal devices. In still other implementations, profile avatars 302(FIG. 19) may be displayed on display 60 or peripheral device 80 andsubsequently selecting profile avatar 302 provides options forinteracting with that individual (e.g., media share, call, join, invite,or mute).

FIG. 22 illustrates another example implementation 460 of communitysharing on the vehicle community platform 300 via the communityapplication. It will be appreciated that the illustrated layout anddesign are merely exemplary and the community platform 300 and communityapplication can have any suitable arrangement that enables communityplatform 300 and community application to function as described herein.In the illustrated example, a passenger can initiate an in-vehicle photoon a personal device 462 or other device in the vehicle. The personaldevice 462 and/or community display 34 can display a notification that aphoto has been initiated (step 464), display a countdown to taking thephoto (step 466), and then display the taken photo (step 468). At step470 media content is shared by pressing a share icon (not shown),pressing or holding the media content, and then dragging over to theperson or display you want to share the media with.

With continued reference to FIGS. 1, 3, and 23, the community platform300 is additionally configured to interact with a vehicle lightingsystem 500. In the example embodiment, vehicle lighting system 500generally includes an exterior lighting system 502 and an interiorlighting system 504.

With reference to FIG. 1, the exterior lighting system 502 will bedescribed in more detail. As illustrated, vehicle front end 14 includesfront customizable lighting 510, vehicle rear end 16 includes rearcustomizable lighting 520, and vehicle sides 18 include a customizabledoor ring lighting 530 extending generally about an outer perimeter ofeach door assembly 20. The front customizable lighting 510, the rearcustomizable lighting 520, and the customizable door ring lighting 530are configured to display a particular color based on variousconditions.

For example, exterior lighting system 502 displays a predetermined colorbased on a profile of the driver or passenger(s), whether the vehicle isoperating in an autonomous driving mode, or when the vehicle is beingutilized for-hire (e.g., taxi-cab). The predetermined color can bedetermined based on vehicle programming, user preference, and/or one ormore user profiles associated with the community platform 300. Forexample, a first driver of vehicle 10 may select red as the chosen colorassociated with his/her profile. Upon the vehicle 10 detecting the firstdriver is approaching or is in the vehicle, the exterior lighting system502 can display the color red. However, a second driver of vehicle 10may select yellow as the chosen color associated with his/her profile.Upon the vehicle 10 detecting the second driver is approaching or is inthe vehicle, the exterior lighting system 502 can display the coloryellow. However, the predetermined color is not limited to the driver,and may be chosen based on various other conditions such as a passengerprofile or a location of the vehicle.

Moreover, as shown in FIG. 1, exterior lighting system 502 may includeone or more light projectors 540 located on the vehicle such as on thefront 14, rear 16, or sides 18 of the vehicle. The light projectors 540can be configured to project information onto the ground for the vehicledriver, passenger(s), and/or persons within proximity to vehicle 10(e.g., pedestrians). For example, light projectors 540 may displaygreeting messages/displays/animations on the ground about the vehicle 10when a person authorized to access the vehicle approaches the vehicle.For example, the vehicle 10 can detect the person (e.g., the driver)based on facial recognition, voice recognition, device sync (e.g.,Bluetooth), etc. and subsequently displays a greetingmessage/display/animation 542 (FIG. 1) on the ground to the driver.

Similarly, light projectors 540 may display exitmessages/displays/animations on the ground around the vehicle 10 when aperson authorized to access the vehicle exits the vehicle. For example,the vehicle 10 can detect the person exiting the vehicle (e.g., when thevehicle is in park and the doors 20 open) and subsequently displays anexit message/display/animation on the ground to the person. However,light projectors 540 may display messages/displays/animations at anyground location around the vehicle 10 or even on objects (e.g., walls)in proximity to the vehicle.

In other scenarios, light projectors 540 may display warningmessages/symbols on the ground or surrounding area, as shown in FIG. 1.For example, vehicle 10 includes sensors and/or cameras that monitor thearea around the vehicle 10, and the light projectors 540 can be utilizedto display warnings or directions to persons in or around the vehicle.In one example, the vehicle sensors and/or cameras can detect anothervehicle approaching vehicle 10 and project a warning onto the ground toalert the driver/passengers not to exit the vehicle until the traffichas cleared. Similarly, the warnings/directions may be utilized toprovide a countdown to when it is safe to leave the vehicle and/or crossthe street. In other scenarios, light projectors 540 may display amessage reminding drivers/passengers about an object left in the vehicle(e.g., in the trunk). In another scenario, light projectors 540 areutilized to denote an area on the ground for persons to stand in orderto be able to utilize a vehicle camera (not shown) to take a photo ofone or more persons. Accordingly, light projectors 540 are operablyconnected to the vehicle systems and are utilized to communicate usefulinformation about the safety and status of vehicle 10, as well as forthe safety of persons in proximity to vehicle 10.

With further reference to FIGS. 3, 12, and 24, interior lighting system504 will be described in more detail. The interior lighting system 504includes a customizable seat lighting system 560 (FIG. 3), acustomizable dome lighting system 570 (FIG. 12), a customizableheadliner lighting system 580 (FIG. 3), and a customizable floorlighting system 590 (FIG. 24). Interior lighting system 504 isconfigured to display a predetermined color based on the profile of thedriver or passenger(s), whether the vehicle is operating in anautonomous driving mode, and/or when the vehicle is being utilizedfor-hire (e.g., taxi-cab).

The predetermined color can be determined based vehicle programming,user preference, and/or based on a user profile associated with thevehicle. For example, each vehicle seat 28 may include one customizableseat lighting system 560. Based on the profile of the person sitting inthat particular seat 28, the seat lighting system 560 will display thepredetermined color in an aura beneath the seat.

For example, a first person sitting in the driver seat 28 a may have acolor profile set to red, and the seat lighting system 560 will displayred when the first person sits in the seat 28 a. However, a secondperson sitting in the front passenger seat 28 b may have a color profileset to yellow, and the seat lighting system 560 will display yellow whenthe second person sits in the seat 28 b. Similarly, the customizabledome lighting system 570 may include an overhead dome light 168 (seeFIG. 13) coupled to the vehicle roof/headliner 38 that is configured todisplay a predetermined color based on a passenger profile or a vehiclecondition.

Similarly, as shown in FIG. 3, the customizable headliner lightingsystem 580 may include a continuous or non-continuous light 582circumscribing a portion or all of the vehicle roof/headliner 38 that isconfigured to display a predetermined color based on a passenger profileand/or a vehicle condition. As shown in FIG. 24, the customizable floorlighting system 590 includes a continuous or non-continuous light 592circumscribing a portion or all of the vehicle floor 48. The light 592is configured to display a predetermined color based on a passengerprofile and/or a vehicle condition.

Described herein is a vehicle with upgradeable modular technology thatenables the vehicle to evolve as technology advances. It provides theuser with the ability to create a vehicle with the features they desireand to easily upgrade those features. Moreover, personal devices areseamlessly integrated with the vehicle. In addition, a communityplatform creates a social space for passengers to enhance in-vehiclecommunication. Passengers are able to share media, POIs, photos, andother data from personal devices to a community display. Passengers cancreate a group media playlist, engage in group trip planning, take groupphotos, etc. Moreover, the community platform can enable the creation ofa group or community profile where an intelligent engine can providemedia, POI, and travel suggestions based on each passenger's commoninterests.

Further, users are able to customize interior and exterior lighting, andthe vehicle can detect the surrounding environment with sensors/camerasand communicate with persons in proximity to the vehicle. Additionally,a user can create a profile that is a visual display of personal dataassociated with that specific user. The user is able to save theirpreferences in the system or cloud so they can easily access theirdata/profile across multiple vehicles. Facial recognition and voicebiometrics eliminate the need for a key as the vehicle automaticallyrecognizes and configures for the user. As authorized users approach thevehicle, they are recognized and matched to their profile. If there is amatch, the vehicle illuminates based on the detection of the user, andthe user can open and close the doors/hatches via voice commands with anassociated light sequence.

It will be understood that the mixing and matching of features, elementsand/or functions between various examples may be expressly contemplatedherein so that one skilled in the art would appreciate from the presentteachings that features, elements and/or functions of one example may beincorporated into another example as appropriate, unless describedotherwise above.

What is claimed is:
 1. A vehicle comprising: at least one display; acentral controller in signal communication with the at least one displayand configured to detect a plurality of unique user profiles associatedwith peripheral electronic user devices located within the vehicle, thecentral controller configured to establish signal communication with theperipheral electronic user devices located within the vehicle.
 2. Thevehicle of claim 1, wherein the central controller is configured to loadeach unique user profile and provide a visual display of each userprofile on the at least one display.
 3. The vehicle of claim 2, whereinthe central controller includes a community platform that connects theperipheral electronic user devices for interaction (i) between theperipheral electronic user devices and (ii) between the peripheralelectronic user devices and the at least one display.
 4. The vehicle ofclaim 3, wherein said interaction includes sharing music.
 5. The vehicleof claim 3, wherein said interaction includes sharing video.
 6. Thevehicle of claim 3, wherein said interaction includes sharing media. 7.The vehicle of claim 3, wherein said interaction includes sharingdestinations.
 8. The vehicle of claim 3, wherein said interactionincludes sharing points of interest.
 9. The vehicle of claim 3, whereinthe community platform is configured to: display on the peripheralelectronic user devices media that can be shared on the communityplatform; and provide a share soft button on the peripheral electronicuser devices to share the media with one or more other peripheralelectronic user devices.
 10. The vehicle of claim 9, wherein thecommunity platform is further configured to: provide a selection menusoft button on the peripheral electronic user devices after a userselects the share soft button, the selection menu providing a list of(i) the at least one display and (ii) one or more other peripheralelectronic user devices that the media can be shared with.
 11. Thevehicle of claim 10, wherein the central controller is configured todefine a community profile based on the detected unique user profiles.12. The vehicle of claim 11, wherein the central controller isconfigured to provide contextual suggestions for the community profilebased on determined common interests and/or preferences of the uniqueuser profiles.
 13. The vehicle of claim 11, wherein the centralcontroller is configured to display a different image identifying eachdetected unique user profile.
 14. The vehicle of claim 13, wherein thedifferent image includes a unique color for each unique user profile.15. The vehicle of claim 13, wherein the central controller isconfigured to visually identify input corresponding to each unique userprofile such that the at least one display visually displays inputcorresponding to each unique user profile in a different manner.
 16. Thevehicle of claim 15, wherein the central controller is configured tovisually identify the input corresponding to each unique user profileusing a different color.
 17. The vehicle of claim 12, wherein thecontextual suggestions include music, destinations, and food choices.18. The vehicle of claim 2, wherein the vehicle further comprises: atleast one customizable lighting system in signal communication with thecentral controller, wherein the central controller is configured toadjust one or more lighting characteristics of the at least onecustomizable lighting system.
 19. The vehicle of claim 18, wherein thecentral controller is configured to adjust the one or more lightingcharacteristics based on a preference associated with one of the uniqueuser profiles.
 20. The vehicle of claim 19, wherein the one or morelighting characteristics includes light color.
 21. The vehicle of claim18, wherein the at least one customizable lighting system is an exteriorvehicle lighting.
 22. The vehicle of claim 21, wherein the exteriorvehicle lighting includes lighting located on a front of the vehicle.23. The vehicle of claim 21, wherein the exterior vehicle lightingincludes lighting located on a rear of the vehicle.
 24. The vehicle ofclaim 21, wherein the exterior vehicle lighting includes ring lightingdisposed about doors of the vehicle.
 25. The vehicle of claim 21,wherein the exterior vehicle lighting includes a projector configured toproject a light onto areas surrounding the vehicle.
 26. The vehicle ofclaim 25, wherein the projected light comprises a greeting message, anexit message, or a warning message.
 27. The vehicle of claim 18, whereinthe at least one customizable lighting system is an interior vehiclelighting.
 28. The vehicle of claim 27, wherein the interior vehiclelighting includes a dome light coupled to a roof of the vehicle.
 29. Thevehicle of claim 27, wherein the interior vehicle lighting includes aseat lighting system with a seat light disposed on one or more seats ofthe vehicle, each seat light configured to selectively provide a coloraura around the associated seat.
 30. The vehicle of claim 27, whereinthe interior vehicle lighting includes a headliner lighting systemcircumscribing at least a portion of an outer perimeter of a headlinerof the vehicle.
 31. The vehicle of claim 27, wherein the interiorvehicle lighting includes a floor lighting system circumscribing atleast a portion of an outer perimeter of a floor of the vehicle.
 32. Thevehicle of claim 27, wherein the interior vehicle lighting includes afoot well lighting system configured to provide lighting customized toone of the unique user profiles associated with a seat adjacent the footwell area.
 33. The vehicle of claim 32, wherein the central controlleris configured to control the foot well lighting system to providelighting differently customized for multiple unique user profilescorresponding to users in multiple different seats.
 34. A vehiclecomprising: at least one display; a central controller in signalcommunication with the at least one display and configured to detect aplurality of unique user profiles associated with peripheral electronicuser devices located within the vehicle; the central controllerconfigured to establish signal communication with the peripheralelectronic user devices located within the vehicle, load each uniqueuser profile and provide a visual display of each user profile on the atleast one display, wherein the central controller includes a communityplatform that connects the peripheral electronic user devices forinteraction (i) between the peripheral electronic user devices and (ii)between the electronic user devices and the at least one display;wherein said interaction includes sharing at least one of media,destinations, and points of interest; wherein the community platform isconfigured to: display on the peripheral electronic user devices atleast one of the media, destinations, and points of interest that can beshared on the community platform; provide a share soft button on theperipheral electronic user devices to share at least one of the media,destinations, and points of interest with one or more other peripheralelectronic user devices; and provide a selection menu soft button on theperipheral electronic user devices after a user selects the share softbutton, the selection menu providing a list of (i) the at least onedisplay and (ii) one or more other peripheral electronic user devicesthat the at least one of media, destinations, and points of interest canbe shared with; wherein the central controller is configured to define acommunity profile based on the detected unique user profiles, andprovide contextual suggestions for the community profile based ondetermined common interests and/or preferences of the unique userprofiles; and a customizable lighting system in signal communicationwith the central controller, wherein the central controller isconfigured to adjust one or more lighting characteristics of the atleast one customizable lighting system based on a preference associatedwith one of the unique user profiles, wherein the customizable lightingsystem includes: lighting located on the front of the vehicle, a rear ofthe vehicle, ring lighting disposed about doors of the vehicle, and aprojector configured to project a light onto areas surrounding thevehicle; and a dome light coupled to the roof of the vehicle, a seatlighting system with a seat light disposed on one or more seats of thevehicle, a headliner lighting system circumscribing at least a portionof an outer perimeter of a headliner of the vehicle, and a floorlighting system circumscribing at least a portion of an outer perimeterof a floor of the vehicle; wherein the central controller is configuredto control the customizable lighting system to provide lightingdifferently customized for multiple unique user profiles correspondingto users in multiple different seats.